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Proceedings Paper

Wavelength beam combined quantum cascade lasers for IRCM
Author(s): John L. Bradshaw; Richard L Tober; John D. Bruno; Richard P. Leavitt; Kevin M. Lascola; Gregory P. Meissner; John T. Pham
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Paper Abstract

The threat posed to aircraft by shoulder-fired missiles has increased to the point where initial testing of laser-based IRCM systems on commercial aircraft is underway. However, the laser sources used in this testing are complex and costly. Consequently, the need for a simpler, cost-effective, compact, and power-efficient laser source technology is urgent. Over the last two years, quantum cascade (QC) lasers have advanced in performance and reliability to the point where a thorough, experimentally based assessment of the applicability of these lasers as IRCM sources is called for. In this talk, I will describe Maxion's development of a wavelength-beam-combined laser source module capable of emitting, in principle, multi-Watt-levels of optical power in a single, near-diffraction-limited beam. Details of the single emitter performances in the linear QC laser array are provided as well as the power performance and optical beam characteristics of the WBC system.

Paper Details

Date Published: 6 May 2009
PDF: 12 pages
Proc. SPIE 7325, Laser Technology for Defense and Security V, 73250K (6 May 2009); doi: 10.1117/12.819464
Show Author Affiliations
John L. Bradshaw, Maxion Technologies, Inc. (United States)
Richard L Tober, US Army Research Lab. (United States)
John D. Bruno, Maxion Technologies, Inc. (United States)
Richard P. Leavitt, Maxion Technologies, Inc. (United States)
Kevin M. Lascola, Maxion Technologies, Inc. (United States)
Gregory P. Meissner, Maxion Technologies, Inc. (United States)
John T. Pham, Maxion Technologies, Inc. (United States)


Published in SPIE Proceedings Vol. 7325:
Laser Technology for Defense and Security V
Mark Dubinskii; Stephen G. Post, Editor(s)

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